windows-nt/Source/XPSP1/NT/printscan/print/spooler/inetsrv/genmem.cxx

/*****************************************************************************\
* MODULE: genmem.c
*
*   This module contains memory-management wrapper routines.  These provide
*   debugging checks if needed.
*
*   The blocks allocated with these routines include two DWORD entrys for
*   marking the head and tail of the allocation block.  This is structured as
*   follows:
*
*         DWORD              cbSize             DWORD
*      -------------------------------------------------
*     | Block Size |  ...Alocated Memory...  | DEADBEEF |
*      -------------------------------------------------
*                  ^
*                  |
*                   Allocations return this pointer.
*
*   routines
*   --------
*   genGAlloc
*   genGFree
*   genGRealloc
*   genGAllocStr
*   genGCopy
*   genGSize
*
*
*
* Copyright (C) 1996-1997 Microsoft Corporation
* Copyright (C) 1996-1997 Hewlett Packard
*
* history:
*   22-Nov-1996 <chriswil> created.
*
\*****************************************************************************/

#include "pch.h"

#ifdef DEBUG

/*****************************************************************************\
* mem_validate
*
*   Checks the block of memory for any overwrites or size mismatches.
*
\*****************************************************************************/
LPVOID gen_validate(
    PDWORD_PTR lpMem,
    DWORD   cbSize)
{
    DWORD   cbNew;
    PDWORD_PTR lpTail;
    PDWORD_PTR lpHead;
    LPVOID  lpRet = NULL;


    // Bad thing if a null-pointer is passed in.
    //
    if (lpMem != NULL) {

        // Reset the block to the true position.
        //
        lpHead = --lpMem;


        // Calculate the "real" size of our allocated block and round it
        // up to an even number of DWORD_PTR s.
        //
        cbNew = cbSize + (2 * sizeof(DWORD_PTR));

        if (cbNew & 7)
            cbNew += sizeof(DWORD_PTR) - (cbNew & 7);


        // Get the tail location.
        //
        lpTail = (DWORD_PTR)((LPBYTE)lpHead + cbNew - sizeof(DWORD_PTR));


        // Compare the values that memAlloc stored at the beginning
        // and end of the block
        //
        SPLASSERT(*lpHead == cbSize);
        SPLASSERT(*lpTail == DEADBEEF);

        lpRet = (LPVOID)lpHead;
        } else {

        DBGMSG(DBG_ERROR, ("gen_validate: Bad Pointer"));
    }

    return lpRet;
}

#else

/*****************************************************************************\
* gen_validate (Non-Debug)
*
*   On non-debug builds, we will just return the head ptr.
*
\*****************************************************************************/
_inline LPVOID gen_validate(
    PDWORD_PTR lpMem,
    DWORD   cbSize)
{
    if (lpMem) {

        lpMem--;

        return (LPVOID)lpMem;
    }

    return NULL;
}

#endif

/*****************************************************************************\
* genGAlloc
*
*   Allocates a global-memory block.  This allocation also includes a header
*   block which contains block-information.  This allows for the tracking
*   of overwrites.
*
\*****************************************************************************/
LPVOID genGAlloc(
    DWORD cbSize)
{
    PDWORD_PTR lpMem;
    DWORD   cbNew;


    // Give us a little room for debugging info and make sure that our
    // size in bytes results in a whole number of DWORDs.
    //
    cbNew = cbSize + (2 * sizeof(DWORD_PTR));


    // DWORD_PTR align the memory so that we can track the correct amount
    // of dword-allocations.
    //
    if (cbNew & 7)
        cbNew += sizeof(DWORD_PTR) - (cbNew & 7);


    // Attempt to allocate the memory.
    //
    if ((lpMem = (PDWORD_PTR)GlobalAlloc(GPTR, cbNew)) == NULL) {
        SetLastError(ERROR_NOT_ENOUGH_MEMORY);
        return NULL;
    }


    // Set up extra tracking information -- region size at the front
    // and an easily distinguishable constant at the back to help
    // us detect overwrites.
    //
    *lpMem = cbSize;
    *(PDWORD_PTR)((LPBYTE)lpMem + cbNew - sizeof(DWORD_PTR)) = DEADBEEF;

    return (LPVOID)(lpMem + 1);
}


/*****************************************************************************\
* genGFree
*
*   Free the memory allocated from genGAlloc.  Validate the memory to see
*   if any bad-overwrites occured.
*
\*****************************************************************************/
BOOL genGFree(
    LPVOID lpMem,
    DWORD  cbSize)
{
    LPVOID lpHead;
    BOOL   bRet = FALSE;


    // Try to at least make sure it's our memory and that no pointers have
    // gone astray in it.
    //
    if (lpHead = gen_validate((PDWORD_PTR)lpMem, cbSize))
        bRet = (GlobalFree(lpHead) == NULL);

    return bRet;
}


/*****************************************************************************\
* genGRealloc
*
*   Reallocate the memory block.  This allocates a new block, then copies
*   the information to the new-memory.  The old one is freed.
*
\*****************************************************************************/
PVOID genGRealloc(
    LPVOID lpMem,
    DWORD  cbOldSize,
    DWORD  cbNewSize)
{
    LPVOID lpNew;

    if (lpNew = (LPVOID)genGAlloc(cbNewSize)) {

        memcpy(lpNew, lpMem, cbOldSize);

        genGFree(lpMem, cbOldSize);
    }

    return lpNew;
}


/*****************************************************************************\
* genGAllocWStr
*
* Allocate and store a UNICODE string.
*
\*****************************************************************************/
LPWSTR genGAllocWStr(
    LPCWSTR lpwszStr)
{
    LPWSTR lpwszMem;

    if (lpwszStr == NULL)
       return NULL;

    if (lpwszMem = (LPWSTR)genGAlloc((lstrlen(lpwszStr) + 1) * sizeof(WCHAR)))
       lstrcpy(lpwszMem, lpwszStr);

    return lpwszMem;

}


/*****************************************************************************\
* genGAllocStr
*
*   Allocate and store a string.
*
\*****************************************************************************/
LPTSTR genGAllocStr(
    LPCTSTR lpszStr)
{
    LPTSTR lpszMem;

    if (lpszStr == NULL)
       return NULL;

    if (lpszMem = (LPTSTR)genGAlloc((lstrlen(lpszStr) + 1) * sizeof(TCHAR)))
       lstrcpy(lpszMem, lpszStr);

    return lpszMem;
}


/*****************************************************************************\
* genGCopy
*
*   Makes a copy of the memory pointed to by (lpSrc), and returns a new
*   allocated block.
*
\*****************************************************************************/
LPVOID genGCopy(
    LPVOID lpSrc)
{
    DWORD  cbSize;
    LPVOID lpCpy = NULL;


    if ((lpSrc != NULL) && (cbSize = genGSize(lpSrc))) {

        if (lpCpy = genGAlloc(cbSize))
            memcpy(lpCpy, lpSrc, cbSize);
    }

    return lpCpy;
}


/*****************************************************************************\
* genGSize
*
*   Returns the size of the block alloced by genGAlloc().
*
\*****************************************************************************/
DWORD genGSize(
    LPVOID lpMem)
{
    PDWORD_PTR lpHead;

    if (lpHead = (PDWORD_PTR)lpMem)
        return (DWORD) *(--lpHead);

    return 0;
}
Add source files 2020-09-26 03:20:57 -05:00			`/*****************************************************************************\`
			`* MODULE: genmem.c`
			`*`
			`* This module contains memory-management wrapper routines. These provide`
			`* debugging checks if needed.`
			`*`
			`* The blocks allocated with these routines include two DWORD entrys for`
			`* marking the head and tail of the allocation block. This is structured as`
			`* follows:`
			`*`
			`* DWORD cbSize DWORD`
			`* -------------------------------------------------`
			`* \| Block Size \| ...Alocated Memory... \| DEADBEEF \|`
			`* -------------------------------------------------`
			`* ^`
			`* \|`
			`* Allocations return this pointer.`
			`*`
			`* routines`
			`* --------`
			`* genGAlloc`
			`* genGFree`
			`* genGRealloc`
			`* genGAllocStr`
			`* genGCopy`
			`* genGSize`
			`*`
			`*`
			`*`
			`* Copyright (C) 1996-1997 Microsoft Corporation`
			`* Copyright (C) 1996-1997 Hewlett Packard`
			`*`
			`* history:`
			`* 22-Nov-1996 <chriswil> created.`
			`*`
			`\*****************************************************************************/`

			`#include "pch.h"`

			`#ifdef DEBUG`

			`/*****************************************************************************\`
			`* mem_validate`
			`*`
			`* Checks the block of memory for any overwrites or size mismatches.`
			`*`
			`\*****************************************************************************/`
			`LPVOID gen_validate(`
			`PDWORD_PTR lpMem,`
			`DWORD cbSize)`
			`{`
			`DWORD cbNew;`
			`PDWORD_PTR lpTail;`
			`PDWORD_PTR lpHead;`
			`LPVOID lpRet = NULL;`


			`// Bad thing if a null-pointer is passed in.`
			`//`
			`if (lpMem != NULL) {`

			`// Reset the block to the true position.`
			`//`
			`lpHead = --lpMem;`


			`// Calculate the "real" size of our allocated block and round it`
			`// up to an even number of DWORD_PTR s.`
			`//`
			`cbNew = cbSize + (2 * sizeof(DWORD_PTR));`

			`if (cbNew & 7)`
			`cbNew += sizeof(DWORD_PTR) - (cbNew & 7);`


			`// Get the tail location.`
			`//`
			`lpTail = (DWORD_PTR)((LPBYTE)lpHead + cbNew - sizeof(DWORD_PTR));`


			`// Compare the values that memAlloc stored at the beginning`
			`// and end of the block`
			`//`
			`SPLASSERT(*lpHead == cbSize);`
			`SPLASSERT(*lpTail == DEADBEEF);`

			`lpRet = (LPVOID)lpHead;`
			`} else {`

			`DBGMSG(DBG_ERROR, ("gen_validate: Bad Pointer"));`
			`}`

			`return lpRet;`
			`}`

			`#else`

			`/*****************************************************************************\`
			`* gen_validate (Non-Debug)`
			`*`
			`* On non-debug builds, we will just return the head ptr.`
			`*`
			`\*****************************************************************************/`
			`_inline LPVOID gen_validate(`
			`PDWORD_PTR lpMem,`
			`DWORD cbSize)`
			`{`
			`if (lpMem) {`

			`lpMem--;`

			`return (LPVOID)lpMem;`
			`}`

			`return NULL;`
			`}`

			`#endif`

			`/*****************************************************************************\`
			`* genGAlloc`
			`*`
			`* Allocates a global-memory block. This allocation also includes a header`
			`* block which contains block-information. This allows for the tracking`
			`* of overwrites.`
			`*`
			`\*****************************************************************************/`
			`LPVOID genGAlloc(`
			`DWORD cbSize)`
			`{`
			`PDWORD_PTR lpMem;`
			`DWORD cbNew;`


			`// Give us a little room for debugging info and make sure that our`
			`// size in bytes results in a whole number of DWORDs.`
			`//`
			`cbNew = cbSize + (2 * sizeof(DWORD_PTR));`


			`// DWORD_PTR align the memory so that we can track the correct amount`
			`// of dword-allocations.`
			`//`
			`if (cbNew & 7)`
			`cbNew += sizeof(DWORD_PTR) - (cbNew & 7);`


			`// Attempt to allocate the memory.`
			`//`
			`if ((lpMem = (PDWORD_PTR)GlobalAlloc(GPTR, cbNew)) == NULL) {`
			`SetLastError(ERROR_NOT_ENOUGH_MEMORY);`
			`return NULL;`
			`}`


			`// Set up extra tracking information -- region size at the front`
			`// and an easily distinguishable constant at the back to help`
			`// us detect overwrites.`
			`//`
			`*lpMem = cbSize;`
			`*(PDWORD_PTR)((LPBYTE)lpMem + cbNew - sizeof(DWORD_PTR)) = DEADBEEF;`

			`return (LPVOID)(lpMem + 1);`
			`}`


			`/*****************************************************************************\`
			`* genGFree`
			`*`
			`* Free the memory allocated from genGAlloc. Validate the memory to see`
			`* if any bad-overwrites occured.`
			`*`
			`\*****************************************************************************/`
			`BOOL genGFree(`
			`LPVOID lpMem,`
			`DWORD cbSize)`
			`{`
			`LPVOID lpHead;`
			`BOOL bRet = FALSE;`


			`// Try to at least make sure it's our memory and that no pointers have`
			`// gone astray in it.`
			`//`
			`if (lpHead = gen_validate((PDWORD_PTR)lpMem, cbSize))`
			`bRet = (GlobalFree(lpHead) == NULL);`

			`return bRet;`
			`}`


			`/*****************************************************************************\`
			`* genGRealloc`
			`*`
			`* Reallocate the memory block. This allocates a new block, then copies`
			`* the information to the new-memory. The old one is freed.`
			`*`
			`\*****************************************************************************/`
			`PVOID genGRealloc(`
			`LPVOID lpMem,`
			`DWORD cbOldSize,`
			`DWORD cbNewSize)`
			`{`
			`LPVOID lpNew;`

			`if (lpNew = (LPVOID)genGAlloc(cbNewSize)) {`

			`memcpy(lpNew, lpMem, cbOldSize);`

			`genGFree(lpMem, cbOldSize);`
			`}`

			`return lpNew;`
			`}`


			`/*****************************************************************************\`
			`* genGAllocWStr`
			`*`
			`* Allocate and store a UNICODE string.`
			`*`
			`\*****************************************************************************/`
			`LPWSTR genGAllocWStr(`
			`LPCWSTR lpwszStr)`
			`{`
			`LPWSTR lpwszMem;`

			`if (lpwszStr == NULL)`
			`return NULL;`

			`if (lpwszMem = (LPWSTR)genGAlloc((lstrlen(lpwszStr) + 1) * sizeof(WCHAR)))`
			`lstrcpy(lpwszMem, lpwszStr);`

			`return lpwszMem;`

			`}`


			`/*****************************************************************************\`
			`* genGAllocStr`
			`*`
			`* Allocate and store a string.`
			`*`
			`\*****************************************************************************/`
			`LPTSTR genGAllocStr(`
			`LPCTSTR lpszStr)`
			`{`
			`LPTSTR lpszMem;`

			`if (lpszStr == NULL)`
			`return NULL;`

			`if (lpszMem = (LPTSTR)genGAlloc((lstrlen(lpszStr) + 1) * sizeof(TCHAR)))`
			`lstrcpy(lpszMem, lpszStr);`

			`return lpszMem;`
			`}`


			`/*****************************************************************************\`
			`* genGCopy`
			`*`
			`* Makes a copy of the memory pointed to by (lpSrc), and returns a new`
			`* allocated block.`
			`*`
			`\*****************************************************************************/`
			`LPVOID genGCopy(`
			`LPVOID lpSrc)`
			`{`
			`DWORD cbSize;`
			`LPVOID lpCpy = NULL;`


			`if ((lpSrc != NULL) && (cbSize = genGSize(lpSrc))) {`

			`if (lpCpy = genGAlloc(cbSize))`
			`memcpy(lpCpy, lpSrc, cbSize);`
			`}`

			`return lpCpy;`
			`}`


			`/*****************************************************************************\`
			`* genGSize`
			`*`
			`* Returns the size of the block alloced by genGAlloc().`
			`*`
			`\*****************************************************************************/`
			`DWORD genGSize(`
			`LPVOID lpMem)`
			`{`
			`PDWORD_PTR lpHead;`

			`if (lpHead = (PDWORD_PTR)lpMem)`
			`return (DWORD) *(--lpHead);`

			`return 0;`
			`}`